CN117758646A - Hydraulic integrated full-automatic lifting column - Google Patents

Abstract

The utility model relates to the technical field of lifting columns, in particular to a hydraulic integrated full-automatic lifting column which comprises a supporting mechanism, wherein a guide device is fixedly arranged at the bottom end of the inside of the supporting mechanism, a cover top sleeve is fixedly arranged at the top end of the guide device, a lamp belt is fixedly arranged on the outer ring of the cover top sleeve, the guide device comprises a first rack, an L-shaped discharge groove, a cylinder, a contact plate, a sealing ring, a first reset spring and a hydraulic cylinder, the cylinder is fixedly arranged at the top end of the hydraulic cylinder, the first rack is fixedly arranged at the bottom ends of two sides of the cylinder, the first reset spring is fixedly arranged at the bottom end of the outer ring of the cylinder, the first reset spring is annularly distributed, the sealing ring is fixedly arranged at the top end of the first reset spring, the L-shaped discharge groove is arranged in the sealing ring, the L-shaped discharge groove is annularly distributed, and the contact plate is fixedly arranged at the outer ring at the top end of the sealing ring. Through the setting of guider and supporting mechanism, realized automatic lifting column and prevented that the rainwater from getting into its inside purpose.

Description

Hydraulic integrated full-automatic lifting column

Technical Field

The utility model relates to the technical field of lifting columns, in particular to a hydraulic integrated full-automatic lifting column.

Background

Lifting columns, also called lifting ground columns, lifting road piles, anti-collision road piles, hydraulic lifting columns, isolation piles and the like. The lifting column is widely used for various occasions such as urban traffic, army and national important organization gates and surrounding, pedestrian streets, expressway toll stations, airports, schools, banks, large-scale meetings, parking lots and the like. Through the restriction to the passing vehicles, the safety of traffic order and main facilities and places is effectively ensured.

An automatic lifting column with a Chinese patent publication number of CN211340547U relates to the technical field of security protection. The utility model comprises the following steps: the fixed column is embedded in the ground, a movable column is arranged in the fixed column, the axis of the movable column is coincident with the axis of the movable column, a driving device for driving the movable column to move is arranged in the fixed column, and the driving device is used for driving the movable column to move along the axis direction of the driving device; a movable opening used for the movable column to pass through is also formed in one side of the fixed column along the axial direction of the fixed column; one side of the movable column, which is far away from the movable opening, is provided with an abutting plate for abutting against the fixed column, and the radius of the abutting plate is larger than that of the movable opening.

At present, when the automatic lifting column on the market is installed and used, as gaps exist at joints of the lifting column, and the lifting column is exposed outside for a long time, when raining, rainwater can flow downwards along the surface of the lifting column, so that the rainwater rusts electronic components inside the lifting column, the service life of the automatic lifting column is greatly reduced, and therefore, equipment is needed to improve the automatic lifting column.

Disclosure of Invention

Aiming at the problems in the prior art, the utility model provides a hydraulic integrated full-automatic lifting column.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a integrative full-automatic lift post of hydraulic pressure, includes supporting mechanism, the inside bottom fixed mounting of supporting mechanism has guider, fixed mounting has the cover top cover on the top of guider, fixed mounting has the lamp area on the outer lane of cover top cover, guider includes first rack, L type discharge groove, cylinder, contact plate, sealing washer, first reset spring and hydraulic cylinder, cylinder fixed mounting is on hydraulic cylinder's top, first rack fixed mounting is in the both sides bottom of cylinder, first reset spring fixed mounting is in the outer lane bottom of cylinder, just first reset spring is annular distribution, sealing washer fixed mounting is on first reset spring's top, L type discharge groove is seted up in the inside of sealing washer, just L type discharge groove is annular distribution, contact plate fixed mounting is at the top outer lane of sealing washer, just contact plate is annular distribution, supporting mechanism includes displacement member and positioner, displacement member fixed mounting is on positioner's top.

Preferably, the displacement component comprises a clearing device and a receiving device, and the clearing device is symmetrically and fixedly arranged inside the receiving device.

Preferably, the cleaning device comprises a supporting vertical plate, a second reset spring, a first gear, a second gear, a cleaning wheel, a supporting top plate, a driving toothed belt and a third gear, wherein the second reset spring is fixedly arranged at the center of the side end of the supporting vertical plate, the supporting top plate is fixedly arranged at the side end, deviating from the supporting vertical plate, of the second reset spring, the third gear is rotatably arranged at the top end of the inside of the supporting top plate, the first gear is fixedly arranged at the center of the side end of the third gear, the driving toothed belt is meshed on the outer ring of the first gear, the second gear is meshed at the bottom end of the inside of the driving toothed belt, and the cleaning wheel is fixedly arranged at the center of the two sides of the second gear.

Preferably, the receiving device comprises a synchronous frame, a wire wheel, a second rack, a guide pipe, an alignment sliding sleeve, a supporting ring, a connecting rope, a receiving cavity, an alignment hole, an extension bracket and a third rack, wherein the supporting ring is fixedly arranged in the receiving cavity, the alignment hole is formed in an inner ring of the receiving cavity, the alignment hole is annularly distributed, the extension bracket is fixedly arranged on two sides of the receiving cavity, the guide pipe is fixedly arranged at the inner bottom end of the extension bracket far away from the receiving cavity, the connecting rope is symmetrically and fixedly arranged in the receiving cavity, the connecting rope is positioned above the supporting ring, the synchronous frame is fixedly connected to one end of the connecting rope far away from the receiving cavity, the alignment sliding sleeve is fixedly arranged at two ends of the synchronous frame, the second rack is fixedly arranged at the bottom end of the connecting rope near the extension bracket, the wire wheel is rotatably arranged at the inner top end of the extension bracket far away from the receiving cavity, and the third rack is fixedly arranged at the inner top end of the receiving cavity.

Preferably, the positioning device comprises an upper end supporting sleeve, a fourth gear, an extension rod, vertical guide rails, a supporting shell and vertical grooves, wherein the upper end supporting sleeve is fixedly installed on the top end of the supporting shell, the extension rod is symmetrically and fixedly installed on two sides of the upper end supporting sleeve and the supporting shell, the vertical guide rails are fixedly installed between the two extension rods, the vertical grooves are formed in two sides of the inside of the supporting shell, and the fourth gear is rotatably installed on the top end of the inside of the vertical grooves.

Preferably, the hydraulic cylinder fixed mounting is in the inside bottom of supporting the shell, first rack and fourth gear engagement, receiving cavity fixed mounting is on the inside top of supporting the shell, counterpoint sliding sleeve is cup jointed on vertical guide rail, the one end that the wire wheel was kept away from to the connecting rope is connected with the one end that the supporting roof deviates from second reset spring.

Preferably, the inside of receiving cavity is the cavity state setting, just counterpoint hole and receiving cavity intercommunication, honeycomb duct and the inside intercommunication of extension support, the inside top fixed mounting of upper end supporting sleeve has the photoelectric sensor, just the contact plate aligns with the photoelectric sensor is perpendicular.

Preferably, the top of the L-shaped discharge groove is staggered with the inner ring of the upper end supporting sleeve, two sides of the supporting top plate are attached to the inner wall surface of the receiving cavity, and the bottom of the flow guide pipe is 3 cm away from the top of the fourth gear.

Preferably, the supporting top plate is sleeved on the supporting ring in a sliding manner, the third gear is meshed with the third rack, the bottom end of the cleaning wheel is attached to the bottom end of the inner portion of the receiving cavity, and the supporting vertical plates are symmetrically and fixedly installed in the inner portion of the receiving cavity.

Preferably, the upper end support sleeve further comprises a scraping ring, a connecting base frame and reinforcing rib plates, wherein the scraping ring is fixedly installed between the two connecting base frames at equal intervals, the connecting base frames are symmetrically and fixedly installed on the top end of the upper end support sleeve, the reinforcing rib plates are symmetrically and fixedly installed in the connecting base frames, and the inner wall of the scraping ring is attached to the surface of the outer ring of the cylinder.

The utility model has the beneficial effects that:

according to the utility model, when the hydraulic cylinder in the guide device is started, the L-shaped discharge groove can be driven to be attached to the inner top end of the upper end supporting sleeve, so that the upper end supporting sleeve and the cylinder can be sealed, larger foreign matters are prevented from entering the space between the cylinder and the upper end supporting sleeve, meanwhile, the cylinder can discharge rainwater to the inner part of the receiving cavity through the L-shaped discharge groove, and the receiving cavity is connected with an external diversion system, so that rainwater can be prevented from accumulating in the receiving cavity, and the rainwater diversion work in the cylinder is completed.

And when the cylinder moves up and down, the first rack can drive the second rack to move up and down through the fourth gear, so that the second rack can drive the supporting top plate to move integrally through the repeated pulling connection rope of the synchronous frame, the cleaning wheel can move when the inside of the receiving cavity rotates, soil accumulated at the bottom end of the inside of the receiving cavity can be loosened, soil can be conveniently washed clean when rainwater passes through the inside of the receiving cavity, and the self-circulation cleaning work of the inside of the receiving cavity is completed.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of a front perspective view of a main body of the present utility model;

FIG. 2 is a perspective view of the bottom end of the main body according to the present utility model;

FIG. 3 is a schematic view of a front perspective view of the guide device of the present utility model;

FIG. 4 is a schematic view of a front perspective view of a support mechanism according to the present utility model;

FIG. 5 is a schematic view of a front perspective view of a displacement member according to the present utility model;

FIG. 6 is a schematic view of a cleaning device of the present utility model in partial cutaway;

FIG. 7 is a schematic view in partial cutaway of a receiving means of the present utility model;

fig. 8 is a schematic view of a perspective view of the bottom end of the receiving device according to the present utility model;

FIG. 9 is a schematic view of a front perspective view of a positioning device according to the present utility model;

fig. 10 is a front perspective view of a second embodiment of the upper support sleeve of the present utility model.

In the figure: 1-guiding device, 2-supporting mechanism, 3-lamp area, 4-cover top cover, 5-first rack, 6-L formula discharge tank, 7-cylinder, 8-contact plate, 9-sealing washer, 10-first reset spring, 11-hydraulic cylinder, 12-displacement part, 13-positioner, 14-clearing device, 15-receiving device, 16-support riser, 17-second reset spring, 18-first gear, 19-second gear, 20-cleaning wheel, 21-supporting roof, 22-driving toothed belt, 23-third gear, 24-synchronous frame, 25-wire wheel, 26-second rack, 27-honeycomb duct, 28-alignment sliding sleeve, 29-supporting ring, 30-connecting rope, 31-receiving cavity, 32-alignment hole, 33-extension bracket, 34-third rack, 35-upper end supporting sleeve, 36-fourth gear, 37-extension rod, 38-vertical guide rail, 39-supporting shell, 40-vertical groove, 41-scraping ring, 42-connection base frame, 43-reinforcing rib plate.

Detailed Description

In order to make the present application solution better understood by those skilled in the art, the following description will be made in detail and with reference to the accompanying drawings in the embodiments of the present application, it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe the embodiments of the present application described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The utility model is further described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the hydraulic integrated full-automatic lifting column comprises a supporting mechanism 2, a guiding device 1 is fixedly arranged at the inner bottom end of the supporting mechanism 2, a cover top sleeve 4 is fixedly arranged at the top end of the guiding device 1, a lamp strip 3 is fixedly arranged on the outer ring of the cover top sleeve 4, the guiding device 1 comprises a first rack 5, an L-shaped discharge groove 6, a cylinder 7, a contact plate 8, sealing rings 9, a first return spring 10 and a hydraulic cylinder 11, the cylinder 7 is fixedly arranged at the top end of the hydraulic cylinder 11, the first rack 5 is fixedly arranged at the bottom ends of the two sides of the cylinder 7, the first return spring 10 is fixedly arranged at the bottom end of the outer ring of the cylinder 7, the first return spring 10 is annularly distributed, the sealing rings 9 are fixedly arranged at the top ends of the first return spring 10, the L-shaped discharge groove 6 is arranged inside the sealing rings 9, the L-shaped discharge groove 6 is annularly distributed, the contact plate 8 is fixedly arranged at the top ends of the sealing rings 9, the contact plate 8 is annularly distributed, the support mechanism 2 comprises a displacement part 12 and a positioning device 13, and the positioning device 13 is fixedly arranged at the top ends of the positioning device 13.

Referring to fig. 5, the displacement member 12 includes a cleaning device 14 and a receiving device 15, where the cleaning device 14 is symmetrically and fixedly installed inside the receiving device 15, and can support the cleaning device 14 for cleaning.

Referring to fig. 6, the cleaning device 14 includes a support riser 16, a second return spring 17, a first gear 18, a second gear 19, a cleaning wheel 20, a support top plate 21, a driving toothed belt 22, and a third gear 23, wherein the second return spring 17 is fixedly installed at the center of the side end of the support riser 16, the support top plate 21 is fixedly installed at the side end of the second return spring 17 facing away from the support riser 16, the third gear 23 is rotatably installed at the inner top end of the support top plate 21, the first gear 18 is fixedly installed at the center of the side end of the third gear 23, the driving toothed belt 22 is engaged on the outer ring of the first gear 18, the second gear 19 is engaged at the inner bottom end of the driving toothed belt 22, the cleaning wheel 20 is fixedly installed at the center of both sides of the second gear 19, and square grooves are opened through the bottom end of the support top plate 21, so that the cleaning wheel 20 can be allowed to rotate at the bottom end of the support top plate 21.

As shown in fig. 7 and 8, the receiving device 15 includes a synchronous frame 24, a wire guiding wheel 25, a second rack 26, a guiding tube 27, an alignment sliding sleeve 28, a supporting ring 29, a connecting rope 30, a receiving cavity 31, an alignment hole 32, an extending bracket 33 and a third rack 34, wherein the supporting ring 29 is fixedly installed inside the receiving cavity 31, the alignment hole 32 is formed in the inner ring of the receiving cavity 31, the alignment hole 32 is distributed in a ring shape, the extending bracket 33 is fixedly installed on two sides of the receiving cavity 31, the guiding tube 27 is fixedly installed at the inner bottom end of the extending bracket 33, the connecting rope 30 is symmetrically and fixedly installed inside the receiving cavity 31, the connecting rope 30 is located above the supporting ring 29, the synchronous frame 24 is fixedly connected at one end of the connecting rope 30, which is far away from the receiving cavity 31, the alignment sliding sleeve 28 is fixedly installed at two ends of the synchronous frame 24, the second rack 26 is fixedly installed at the bottom end of the connecting rope 30, the wire guiding wheel 25 is rotatably installed at the inner top end of the extending bracket 33, which is far away from the receiving cavity 31, the third rack 34 is fixedly installed at the top end of the receiving cavity 31, and can be horizontally aligned with the inner groove 7 to the receiving cavity 3, and can be horizontally discharged to the inner groove 35 when the inner groove is aligned with the inner groove 6.

As shown in fig. 9, the positioning device 13 includes an upper end supporting sleeve 35, a fourth gear 36, an extension rod 37, a vertical guide rail 38, a supporting housing 39 and a vertical groove 40, the upper end supporting sleeve 35 is fixedly installed on the top end of the supporting housing 39, the extension rod 37 is symmetrically and fixedly installed on both sides of the upper end supporting sleeve 35 and the supporting housing 39, the vertical guide rail 38 is fixedly installed between the two extension rods 37, the vertical groove 40 is opened on both sides of the inside of the supporting housing 39, the fourth gear 36 is rotatably installed on the inner top end of the vertical groove 40, and the first rack 5 can pass through the inside of the vertical groove 40 through the inside of the first rack 5 so that the first rack 5 can be allowed to pass through the surface of the fourth gear 36.

The hydraulic cylinder 11 is fixedly mounted at the inside bottom of the support shell 39, the first rack 5 is meshed with the fourth gear 36, the receiving cavity 31 is fixedly mounted at the inside top of the support shell 39, the aligning sliding sleeve 28 is sleeved on the vertical guide rail 38 in a sliding manner, one end of the connecting rope 30, which is far away from the wire guide wheel 25, is connected with one end of the support top plate 21, which is far away from the second reset spring 17, the inside of the receiving cavity 31 is hollow, the aligning hole 32 is communicated with the receiving cavity 31, the guide pipe 27 is communicated with the inside of the extension bracket 33, the photoelectric sensor is fixedly mounted at the inside top end of the upper end supporting sleeve 35, the contact plate 8 is vertically aligned with the photoelectric sensor, the top end of the L-shaped discharge groove 6 is staggered with the inner ring of the upper end supporting sleeve 35, two sides of the support top plate 21 are attached to the inner wall surface of the receiving cavity 31, the bottom end of the guide pipe 27 is spaced 3 cm from the top end of the fourth gear 36, the support top plate 21 is sleeved on the support ring 29 in a sliding manner, the third gear 23 is meshed with the third rack 34, the bottom end of the cleaning wheel 20 is fixedly mounted at the inside bottom of the receiving cavity 31, and the support vertical plate 16 is attached to the inside of the receiving cavity 31.

The working principle of example 1 is: when in use, the device is firstly arranged in a foundation pit formed on the ground in advance until the top end surface of the cover top sleeve 4 is kept in a normal state, then, the hydraulic cylinder 11 can be started to drive the cylinder 7 to move up and down to block the ground, when the cylinder 7 moves up, the first rack 5 can be driven to pass through the fourth gear 36 so as to drive the fourth gear 36 to rotate, when the first rack 5 passes through the fourth gear 36, the second rack 26 can be meshed with the fourth gear 36 through the second rack 26, so that the second rack 26 can move downwards, when the second rack 26 moves downwards, the connecting rope 30 can be driven to pull the supporting top plate 21 to move towards one end of the extension bracket 33 in the cavity 31, at the moment, the supporting top plate 21 is in sliding sleeve joint with the supporting ring 29, and the two side surfaces of the supporting top plate 21 are attached to the inner wall of the cavity 31, the supporting top plate 21 can receive the center of the cavity 31 as the axle center, when the supporting top plate 21 rotates in the cavity 31, the bottom end of the third gear 23 can be driven to pass through the third gear 34, when the third rack 5 passes through the fourth gear 36, the second rack 26 can be meshed with the fourth gear 36, the second rack 22 can be driven to rotate, at the same time, when the bottom end of the second rack 22 passes through the second rack 18 is driven to rotate, the second rack 22 and the inner side of the second gear 18 is driven to rotate, the second rack 18 is simultaneously, the soil can be cleaned, and the soil can be simultaneously, when the bottom end of the second rack is driven to rotate the second gear 18 is driven to rotate, and the second gear is in the cavity 19 can be in the cavity 19, and can be cleaned, and simultaneously, and the inner side is rotated, and the inner side of the cavity is rotated, and has a soil is subjected to the soil, the supporting top plate 21 is driven to quickly reset through the elasticity of the second reset spring 17, meanwhile, when the supporting top plate 21 resets, the connecting rope 30 can be used for pulling the aligning sliding sleeve 28 and the second rack 26 to move upwards, so that the second rack 26 can reset, the aligning sliding sleeve 28 is sleeved on the vertical guide rail 38 in a sliding way, the second rack 26 can be guaranteed to move up and down along a straight line, meanwhile, the connecting rope 30 is sleeved on the outer ring of the wire guide wheel 25 in a sliding way, the connecting rope 30 can be supported for pulling the second rack 26 to move vertically up and down, then, when the cylinder 7 moves upwards to a limit position, the top end of the L-shaped discharge groove 6 can be driven to be attached to the inner top end of the upper end supporting sleeve 35, the diameter of the inner ring of the upper end supporting sleeve 35 is larger than the diameter of the outer ring of the cylinder 7, half area of the L-shaped discharge groove 6 is exposed outside, rainwater stored between the cylinder 7 and the upper end supporting sleeve 35 can be conveniently received, at this time, when rainwater flows downwards along the surface of the cylinder 7, the L-shaped discharge groove 6 is driven to be horizontally aligned with the alignment hole 32 when the cylinder 7 moves upwards to the limit position, so that water in the L-shaped discharge groove 6 can flow into the receiving cavity 31 through the alignment hole 32, the receiving cavity 31 is connected with an external water reservoir, so that the receiving cavity 31 can store rainwater in the water reservoir, meanwhile, when the cylinder 7 moves upwards to the limit position, the contact plate 8 can be driven to contact with a photoelectric sensor at the top end of the inner part of the upper end supporting sleeve 35, the photoelectric sensor at the bottom end of the upper end supporting sleeve 35 is electrically connected with the lamp strip 3, when the contact plate 8 contacts with the photoelectric sensor, the lamp strip 3 can be started, the lamp strip 3 can work, reminding can be carried out in a light insufficient area, when the cylinder 7 does not need to perform grid work, the hydraulic cylinder 11 can be started to drive the cylinder 7 to reset downwards, when the cylinder 7 moves downwards to the limit position, the cover top sleeve 4 can be driven to cover the top end of the upper end supporting sleeve 35 completely, the inner ring diameter of the cover top sleeve 4 is larger than the outer ring diameter of the upper end supporting sleeve 35, when the cover top sleeve 4 resets, the cover top sleeve 35 can be covered, so that external sundries can be prevented from entering the top end of the cylinder 7, meanwhile, when the cylinder 7 moves downwards, the contact plate 8 can be driven to be separated from contact with the photoelectric sensor at the bottom end inside the upper end supporting sleeve 35, the lamp belt 3 can be powered off timely, excessive consumption of electric energy is prevented, and the second rack 26 is driven to move through the fourth gear 36 again through the first rack 5, so that the support top plate 21 can drive the cleaning wheel 20 to pass through the inner circulation of the receiving cavity 31 again, and the work of reciprocating cleaning can be performed inside the receiving cavity 31.

Example 2

On the basis of embodiment 1, as shown in fig. 10, the upper end supporting sleeve 35 further comprises a scraping ring 41, a connecting base frame 42 and reinforcing rib plates 43, wherein the scraping ring 41 is fixedly installed between the two connecting base frames 42 at equal intervals, the connecting base frames 42 are symmetrically and fixedly installed on the top end of the upper end supporting sleeve 35, the reinforcing rib plates 43 are symmetrically and fixedly installed in the connecting base frames 42, and the inner wall of the scraping ring 41 is attached to the outer ring surface of the cylinder 7.

When implementing this embodiment, when cylinder 7 moves down and resets, through the inner circle surface laminating of scraping the circle 41 with the outer lane surface of cylinder 7, make cylinder 7 when moving, can pass through the inner circle surface of scraping the circle 41, thereby the impurity of attaching at the outer lane surface of cylinder 7 can be scraped by scraping the circle 41, promote the surface cleanliness factor of cylinder 7, and, through connecting pedestal 42 fixed mounting on scraping the circle 41, and connect pedestal 42 and upper end support sleeve 35 fixed welding, make scrape the circle 41 and can carry out the reinforcing support work on the outer lane of cylinder 7, thereby can promote the anticollision level of cylinder 7, simultaneously, install in the inside of connecting pedestal 42 through reinforcing rib plate 43, make can promote the bulk strength of connecting pedestal 42 again, then can strengthen the internal supporting force of connecting pedestal 42 again, promote the bulk anticollision intensity of cylinder 7 when using.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a integrative full-automatic lift post of hydraulic pressure, includes supporting mechanism (2), inside bottom fixed mounting of supporting mechanism (2) has guider (1), fixed mounting has cover top cover (4) on the top of guider (1), fixed mounting has lamp area (3) on the outer lane of cover top cover (4), its characterized in that: the guiding device comprises a first rack (5), an L-shaped discharging groove (6), a cylinder (7), a contact plate (8), a sealing ring (9), a first reset spring (10) and a hydraulic cylinder (11), wherein the cylinder (7) is fixedly arranged on the top end of the hydraulic cylinder (11), the first rack (5) is fixedly arranged at the bottom ends of the two sides of the cylinder (7), the first reset spring (10) is fixedly arranged at the bottom end of the outer ring of the cylinder (7), the first reset spring (10) is annularly distributed, the sealing ring (9) is fixedly arranged on the top end of the first reset spring (10), the L-shaped discharging groove (6) is formed in the sealing ring (9), the L-shaped discharging groove (6) is annularly distributed, the contact plate (8) is fixedly arranged on the outer ring of the top end of the sealing ring (9), the contact plate (8) is annularly distributed, the supporting mechanism (2) comprises a displacement part (12) and a positioning device (13), and the displacement part (12) is fixedly arranged on the top end of the positioning device (13).

2. The hydraulic integrated fully automatic lifting column according to claim 1, wherein: the displacement component (12) comprises a clearing device (14) and a receiving device (15), and the clearing device (14) is symmetrically and fixedly arranged in the receiving device (15).

3. The hydraulic integrated fully automatic lifting column according to claim 2, wherein: the cleaning device (14) comprises a supporting vertical plate (16), a second reset spring (17), a first gear (18), a second gear (19), a cleaning wheel (20), a supporting top plate (21), a driving toothed belt (22) and a third gear (23), wherein the second reset spring (17) is fixedly installed at the center of the side end of the supporting vertical plate (16), the supporting top plate (21) is fixedly installed at the side end, deviating from the supporting vertical plate (16), of the second reset spring (17), the third gear (23) is rotatably installed at the inner top end of the supporting top plate (21), the first gear (18) is fixedly installed at the center of the side end of the third gear (23), the driving toothed belt (22) is meshed on the outer ring of the first gear (18), the second gear (19) is meshed at the inner bottom end of the driving toothed belt (22), and the cleaning wheel (20) is fixedly installed at the center of the two sides of the second gear (19).

4. A hydraulic integrated fully automatic lifting column according to claim 3, characterized in that: the receiving device (15) comprises a synchronous frame (24), a wire guide wheel (25), a second rack (26), a guide pipe (27), an alignment sliding sleeve (28), a supporting ring (29), a connecting rope (30), a receiving cavity (31), an alignment hole (32), an extension bracket (33) and a third rack (34), wherein the supporting ring (29) is fixedly arranged in the receiving cavity (31), the alignment hole (32) is formed in the inner ring of the receiving cavity (31), the alignment holes (32) are distributed in a ring shape, the extension bracket (33) is fixedly arranged on two sides of the receiving cavity (31), the guide pipe (27) is fixedly arranged at the inner bottom end of the extension bracket (33) far away from the receiving cavity (31), the connecting rope (30) is symmetrically and fixedly arranged in the receiving cavity (31), the connecting rope (30) is arranged above the supporting ring (29), the synchronous frame (24) is fixedly connected to one end of the connecting rope (30) far away from the receiving cavity (31), the guide pipe (27) is fixedly arranged at two ends of the guide pipe (33) near to the second rack (26), the wire guide wheel (25) is rotatably arranged at the top end of the inner part of the extension bracket (33) far away from the receiving cavity (31), and the third rack (34) is fixedly arranged at the top end of the inner part of the receiving cavity (31).

5. The hydraulic integrated fully automatic lifting column according to claim 4, wherein: the positioning device (13) comprises an upper end supporting sleeve (35), a fourth gear (36), an extension rod (37), vertical guide rails (38), a supporting shell (39) and vertical grooves (40), wherein the upper end supporting sleeve (35) is fixedly installed on the top end of the supporting shell (39), the extension rod (37) is symmetrically and fixedly installed on two sides of the upper end supporting sleeve (35) and the supporting shell (39), the vertical guide rails (38) are fixedly installed between the two extension rods (37), the vertical grooves (40) are formed in two sides of the inside of the supporting shell (39), and the fourth gear (36) is rotatably installed on the top end of the inside of the vertical grooves (40).

6. The hydraulic integrated fully automatic lifting column according to claim 5, wherein: the hydraulic cylinder (11) is fixedly arranged at the inner bottom end of the supporting shell (39), the first rack (5) is meshed with the fourth gear (36), the receiving cavity (31) is fixedly arranged at the inner top end of the supporting shell (39), the alignment sliding sleeve (28) is sleeved on the vertical guide rail (38) in a sliding mode, and one end, far away from the wire guide wheel (25), of the connecting rope (30) is connected with one end, deviating from the second reset spring (17), of the supporting top plate (21).

7. The hydraulic integrated fully automatic lifting column according to claim 6, wherein: the inside of receiving cavity (31) is the cavity state setting, just counterpoint hole (32) and receiving cavity (31) intercommunication, honeycomb duct (27) and extension support (33) inside intercommunication, the inside top fixed mounting of upper end supporting sleeve (35) has photoelectric sensor, just contact plate (8) are aligned perpendicularly with photoelectric sensor.

8. The hydraulic integrated fully automatic lifting column according to claim 7, wherein: the top end of the L-shaped discharge groove (6) is staggered with the inner ring of the upper end supporting sleeve (35), two sides of the supporting top plate (21) are attached to the inner wall surface of the receiving cavity (31), and the bottom end of the guide pipe (27) is spaced 3 cm from the top end of the fourth gear (36).

9. The hydraulic integrated fully automatic lifting column according to claim 8, wherein: the support top plate (21) is in sliding sleeve connection with the support ring (29), the third gear (23) is meshed with the third rack (34), the bottom end of the cleaning wheel (20) is attached to the inner bottom end of the receiving cavity (31), and the support vertical plate (16) is symmetrically and fixedly installed in the receiving cavity (31).

10. The hydraulic integrated fully automatic lifting column according to claim 9, wherein: the upper end support sleeve (35) further comprises a scraping ring (41), a connecting base frame (42) and reinforcing rib plates (43), the scraping ring (41) is fixedly installed between the connecting base frames (42) at equal intervals, the connecting base frames (42) are symmetrically and fixedly installed on the top end of the upper end support sleeve (35), the reinforcing rib plates (43) are symmetrically and fixedly installed inside the connecting base frames (42), and the inner wall of the scraping ring (41) is attached to the outer ring surface of the cylinder (7).